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Periodic microstructures for large area applications generated by holography

 
: Niggemann, M.; Bläsi, B.; Boerner, V.; Gombert, A.; Klicker, M.; Kübler, V.; Lalanne, P.; Wittwer, V.

:

Lalanne, P. ; Society of Photo-Optical Instrumentation Engineers -SPIE-, Bellingham/Wash.:
Physics, theory and applications of periodic structures in optics. Proceedings : 1 - 2 August 2001, San Diego, USA
Bellingham, WA: SPIE, 2001 (SPIE Proceedings 4438)
ISBN: 0-8194-4152-X
pp.108-115
Conference on Physics, Theory, and Applications of Periodic Structures in Optics <1, 2001, San Diego/Calif.>
English
Conference Paper
Fraunhofer ISE ()

Abstract
The availability of periodic surface-relief structures with grating constants from 200 nm to 100 microns on large areas leads to a wide field of applications. Effects of interest are the antireflection properties of high aspect ratio subwavelength gratings and the light management by structures in the micrometer scale. The size of the homogeneously structured area and the ease of producability is decisive for the commercialisation of such functional surfaces. Microstructures like these can be produced on large areas by holographic exposure processes. Subsequent holographic exposures with differing parameters lead to combined structures with distinct properties. Master structures in photoresist can be used to fabricate nickel stampers. Techniques like UV roller casting and hot embossing can be employed to replicate such microstructures on large areas with high precision. With such replication processes a very cost effective mass production is possible. With our holograph ic set-up periodic surface relief structures with various grating types and profile shapes can be realised with a good homogeneity on an area with dimensions up to 600 × 800 mm2. The combination of stochastic and periodic structures offers the chance to obtain a multifunctional surface with antiglare and broadband antireflection properties. The possible applications are solar energy systems, lighting or displays.

: http://publica.fraunhofer.de/documents/N-172189.html